自由水消除扩散张量成像：与传统及液体衰减反转恢复序列、扩散张量成像采集的比较。

Free water elimination diffusion tractography: A comparison with conventional and fluid-attenuated inversion recovery, diffusion tensor imaging acquisitions.

作者信息

Hoy Andrew R, Kecskemeti Steven R, Alexander Andrew L

机构信息

Lieutenant, Medical Service Corps, United States Navy, Falls Church, Virginia, USA.

Department of Medical Physics, University of Wisconsin School of Medicine and Public Health, Madison, Wisconsin, USA.

出版信息

J Magn Reson Imaging. 2015 Dec;42(6):1572-81. doi: 10.1002/jmri.24925. Epub 2015 Apr 20.

DOI:10.1002/jmri.24925

PMID:25894864

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4615277/

Abstract

PURPOSE

White matter tractography reconstructions using conventional diffusion tensor imaging (DTI) near cerebrospinal fluid (CSF) spaces are often adversely affected by CSF partial volume effects (PVEs). This study evaluates the ability of free water elimination (FWE) DTI methods to minimize the PVE of CSF for deterministic tractography applications.

MATERIALS AND METHODS

Ten healthy individuals were scanned with "traditional," FLAIR (fluid-attenuated inversion recovery), and FWE DTI scans. The fornix, corpus callosum, and cingulum bundles were reconstructed using deterministic tractography. The FWE DTI scan was performed twice to separately match total acquisition time (long FWE) and number of measurements (encoding directions, short FWE) to the FLAIR and "traditional" DTI scans. PVE resolution was determined based on reconstructed tract volume. All reconstructions underwent blinded review for anatomical correctness, symmetry, and completeness.

RESULTS

Reconstructions of the fornix demonstrated that the FWE and FLAIR scans produce more complete, anatomically plausible reconstructions than "traditional" DTI. Additionally, the tract reconstructions using FWE-DTI were significantly larger than when FLAIR was used with DTI (P < 0.0005). FLAIR and the FWE methods led to signal-to-noise ratio (SNR) reductions of 33% and 11%, respectively, compared with conventional DTI. The long and short FWE acquisitions did not significantly (P ≥ 0.31) differ from one another for any of the reconstructed tracts.

CONCLUSION

The FWE diffusion model overcomes CSF PVE without the time, SNR, and volumetric coverage penalties inherent to FLAIR DTI.

摘要

目的

使用传统扩散张量成像（DTI）在脑脊液（CSF）空间附近进行白质纤维束成像重建时，常受到CSF部分容积效应（PVE）的不利影响。本研究评估了自由水消除（FWE）DTI方法在确定性纤维束成像应用中最小化CSF的PVE的能力。

材料与方法

对10名健康个体进行“传统”、液体衰减反转恢复（FLAIR）和FWE DTI扫描。使用确定性纤维束成像重建穹窿、胼胝体和扣带束。进行两次FWE DTI扫描，以使总采集时间（长FWE）和测量次数（编码方向，短FWE）分别与FLAIR和“传统”DTI扫描相匹配。基于重建的纤维束体积确定PVE分辨率。所有重建均经过盲法评审，以检查解剖学正确性、对称性和完整性。

结果

穹窿的重建表明，FWE和FLAIR扫描比“传统”DTI产生更完整、解剖学上更合理的重建。此外，使用FWE-DTI进行的纤维束重建明显大于将FLAIR与DTI一起使用时的重建（P < 0.0005）。与传统DTI相比，FLAIR和FWE方法导致的信噪比（SNR）分别降低了33%和11%。对于任何重建的纤维束，长FWE采集和短FWE采集之间没有显著差异（P ≥ 0.31）。

结论

FWE扩散模型克服了CSF PVE，且没有FLAIR DTI固有的时间、SNR和容积覆盖方面的损失。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ecc0/4615277/6621c25c6227/nihms-679034-f0001.jpg

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